DE3127855A1 - Holder for a parabolic antenna which can be pivoted in the azimuth and elevation direction - Google Patents

Abstract

The present invention relates to a holder for an antenna which can be pivoted in the azimuth and elevation directions. In this case, the antenna is attached to the front of a U-shaped retaining metal sheet. In a first version, the retaining metal sheet is held by a plurality of clamps, which can be firmly clamped to a stand pipe, such that it can pivot about a horizontal axis and the vertical axis of the stand pipe. In a second version, the retaining metal sheet is attached to a universal joint (knuckle joint) with a horizontal and a vertical joint axis. The universal joint is in turn connected to the stand pipe.

Description

Bracket for a swiveling in azimuth and elevation direction

bare parabolic antenna The present invention relates to a mount for a parabolic antenna that can be swiveled in azimuth and elevation directions and is attached to the Front side of a U-shaped retaining plate is attached, the U-shaped retaining plate attached to a standpipe so that it can rotate about a horizontal and a vertical axis is.

Such an antenna holder is already from DE-OS 19 56 172 known. This bracket is intended in particular for a parabolic television antenna. To align the antenna with the transmission signal emitted by a satellite, for example to be able to, the bracket has devices for swiveling the antenna in azimuth and elevation direction. This bracket has no facility for fine adjustment the azimuth direction. Because alone with the clamps encompassing the standpipe leaves It is very difficult to achieve a very precise alignment of the antenna in the azimuth direction make. In addition, the here described Bracket only on End of a standpipe to be attached, as the elevation adjustment device directly is arranged over the pipe end and a further pushing of the bracket onto the Pipe stands in the way. So it is not possible to add more antennas above the to attach the antenna attached to the standpipe with this bracket.

The invention is now based on the object of an antenna holder of the type mentioned at the outset, which enables the antenna to be precisely adjusted in Azimuth and elevation direction guaranteed and a very flexible assembly on the standpipe.

This object is achieved according to the invention either in that on The standpipe clampable clamps are set with two protruding laterally opposing approaches that go into the two angled side walls engage the U-shaped retaining plate that the approaches of a clamp the horizontal Form the axis of rotation for the retaining plate and that together as a counter bearing for a pivoting movement of the retaining plate around the horizontal axis of rotation and for a rotary movement around the vertical one Axis of the standpipe, the two approaches of another clamp are used or that for the pivoting movement around the horizontal axis and the rotary movement around the vertical one Axis each separate its own clamp 5, 6 with lugs 11, 13 as a counter bearing is available.

Another solution to the problem is that the U-shaped retaining plate is connected to the standpipe via a universal joint, which consists of a double U-shaped part consists of two vertically and two horizontally pointing in opposite directions extending side walls that the U-shaped retaining plate on the vertical side walls of the universal joint is pivotally mounted in the vertical direction and that the horizontal Side walls of the universal joint on the standpipe like this are attached that it is about the standpipe axis as well as about an axis running parallel to it is rotatable.

Appropriate versions of the two solutions according to the invention are to be found in the subclaims.

The elevation and azimuth adjustment means are with the mounts arranged according to the invention so that they'eine assembly at any point Do not obstruct the standpipe.

Based on the exemplary embodiments shown in the drawing now the invention is explained in more detail. 1 shows the side view of an embodiment of the antenna holder, Fig. 2a the section A-A, Fig. 2b the section B-B Fig. 2c the Section C-C through this antenna holder, Fig. 3 is a side view of a second Execution of the antenna holder and FIG. 4 shows a plan view in direction X of this Antenna bracket.

The parabolic antenna 1 shown in Fig. 1 is on the front a U-shaped retaining plate 2 attached. This retaining plate is angled with its Be walls pivotable in azimuth and elevation directions on a standpipe 3 mittles three clamps 4, 5 and 6 mounted. What function the three bells do in the elevation and azimuth pan should be based on FIGS. 2a, 2b, 2c, in which the sections A-A, B-B, C-C are illustrated by the bracket above the three clamps will. Since the sections through the bracket are axially symmetrical, -in the 2a, 2b, 2c each show only one half of the sectional image.

Fig. 2a shows the clamp 4, which on the standpipe 3 with the screw 7 can be clamped. On the side is the clamp with two facing each other Approaches 8 (only one approach is shown here) provided in the two side walls of the U-shaped retaining plate 2 engage. To the two approaches 8, one horizontal Form axis 9, the retaining plate can be rotated, i.e. the antenna in the elevation direction be swiveled.

To set the angle of rotation is below the horizontal axis of rotation 9, a second clamp 5, which can be clamped to the standpipe 3 with the screw 10, is arranged. This clamp le is also provided with two opposing lugs 11 As shown in FIG. 2c, an approach engages through a kidney-shaped elongated hole 12 in each Side wall of the retaining plate 2.

A threaded spindle 13 is on the one hand with the one from the elongated hole 12 protruding approach 11 and on the other hand outside with the side wall of the retaining plate tied together. With the threaded spindle, a desired position of the Retaining plate can be adjusted with respect to the fixed lugs 11 of the clamp 5. The dimension of the kidney-shaped elongated hole 12 limits the adjustment range for the Elevation tilt of the antenna.

The azimuth adjustment of the antenna is done by first loosen all clamps and roughly insert the retaining plate around the standpipe axis into the desired azimuth direction is rotated. Then the third, shown in more detail in Fig. 2b Clamp 6 clamped to standpipe 3 with screw 14.

This third clamp 6 in turn has two opposite one another Approaches 15 which protrude through elongated holes 16 in the side walls of the holding plate 2. A threaded spindle 17, on the one hand at the attachment end and on the other hand on the outside of the side wall mounted, allows fine adjustment of the antenna azimuth direction. When solved Clamps 4 and 5, the retaining plate is rotated around the standpipe axis, by attaching the threaded spindle to a side wall of the retaining plate in- or unscrewed and the threaded spindle on the other side wall in the same Dimensions like the first threaded spindle but in the opposite direction to it. or is turned in.

After the desired position of the antenna has been set, all clamps are clamped to the standpipe 3.

The arrangement of the clamps selected in this exemplary embodiment 4, 5, 6 on the standpipe you are not bound, they can be in any order be attached there.

The azimuth and elevation settings can also be made if in addition to serving as a horizontal axis of rotation 9 clamp 4 only one more Clamp is present. Either of the two opposing approaches of these As in the previous embodiment, the clamp is via a threaded spindle connected to one of the side walls of the U-shaped retaining plate. With an elevation setting both clamps remain clamped on the standpipe. By turning the two threaded spindles The antenna swivels around the on both sides of the retaining plate in the same direction horizontal axis of rotation 9. In the case of an azimuth adjustment, the clamp 4 is loosened. By turning the two threaded spindles in opposite directions it moves the antenna around the standpipe axis. Prerequisite for the feasibility of this Azimuth and elevation adjustment is that there are openings in the side walls of the retaining plate for the protruding approaches of this one clamp are available, which are so shaped are that these two different movements of the retaining plate compared to the fixed Approaches are also possible.

A second embodiment of an antenna holder with azimuth and elevation adjustment are shown in FIG. 3 in a side view and FIG. 4 in plan view (direction X).

The parabolic antenna 18 is U-shaped on the front side curved Holding plate 19 attached, which by means of a universal joint 20 about axes 21, 22, 23 mounted on a standpipe 24 such that it can rotate in the horizontal and vertical directions is.

The universal joint 20 is a double U-shaped part in which one flat base part 25 has two vertical side walls 26, 27 and in the opposite direction in addition two horizontal side walls 28, 29 are bent at right angles vertical side walls 30, 31 of the holding plate 19 carrying the antenna are each with the two vertical side walls 26, 27 of the universal joint 20 by a screw 33, 34 connected. These two screws 33 and 34 form the horizontal axis of rotation 21, around which the antenna can be pivoted in the elevation direction. The setting the desired elevation direction is carried out by threaded spindles 35, 36, which outside on the one hand on the side wall 30 or 31 of the retaining plate and on the other hand the corresponding vertical Seienwand 26 and 27 of the universal joint are attached. The antenna lowers or raises when the spindles are turned in or out.

On the standpipe 24 two clamps 37 and 38 are set with in each case one support part 39, 40 protruding vertically from the standpipe. These support parts serve as a support for the horizontal side walls 28, 29 of the universal joint. the prism-shaped recesses 48 of the clamps 37, 38 allow a standpipe to be clamped in it with any diameter.

By twisting the clamps together with the universal joint attached to them and the holding plate connected to it, the antenna is first roughly in the desired position Azimuth direction brought. In this case, the axis 22 of the standpipe is used as the axis of rotation 24 exploited.

In addition, a second is parallel to the standpipe axis 22 lying Axis 23 is available, about which the universal joint 20 can be pivoted when the clamps are firmly mounted is. With this pivoting movement, the antenna can be fine-tuned to the desired exact azimuth direction can be made. For this purpose, each support part 39, 40 of the clamps and the horizontal side wall 28, 29 of the universal joint resting thereon vertically penetrated by a screw 41, 42.

These two screws 41 and 42 form the aforementioned parallel to Vertical axis of rotation lying on the standpipe axis 23. The twisting of the universal joint around-that axis 23 is accomplished with the help of screws 43 to 46, which through the flat base part 25 of the universal joint running parallel to the axis 23 is screwed are and press against the support parts 39, 40 of the clamps. And that is one of the screws on both sides of each screw 41 and 42 forming the axis of rotation 23 43 to 46 arranged. The screw-in depth of the rotation axis 23 located on both sides Screws sets the twist of the universal joint and therefore the antenna with respect to this Axis fixed.

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Claims (7)

Claims aging for one in azimuth and elevation directions swiveling parabolic antenna attached to the front of a U-shaped mounting plate is, wherein the U-shaped retaining plate about a horizontal and a vertical axis is rotatably attached to a standpipe, characterized in that on the standpipe (3) clampable clamps (4, 5, 6) are set with two protruding laterally opposing approaches (8, 11-, 15), which are angled in the two Side walls of the U-shaped retaining plate (2) engage that the lugs (8) one Clamp (4) form the horizontal axis of rotation for the retaining plate and that as a counter bearing together for a pivoting movement of the holding plate around the horizontal axis of rotation and the two approaches for a rotary movement around the vertical axis of the standpipe serve another clamp or that for the pivoting movement around the horizontal Axis and the rotation around the vertical axis each have their own separate clamp (5, 6) with lugs (11, 13) is available as a counter bearing. 2. Holder according to claim 1, characterized in that means threaded spindles (13, 17) on the one hand on the retaining plate and on the other hand on the counter bearing Approaches (11, 15) of the clamp (s) (5, 6) are attached, the position of the retaining plate is adjustable with respect to the horizontal axis and the vertical axis. 3. Holder according to claim 1, characterized in that the as Counter bearing for the pivoting or rotary movement serving approaches (11, 15) on the (the) clamp (s) (5, 6) through openings (12, 16) in the side walls of the retaining plate (2) protrude, which are dimensioned so that there is sufficient in a movement of the retaining plate Game for the approaches is in place. 4. Bracket for a pivotable in azimuth and elevation directions Parabolic antenna that is attached to the front of a U-shaped bracket, wherein the U-shaped retaining plate is rotatable about a horizontal and a vertical axis is attached to a standpipe, characterized in that the U-shaped retaining plate (19) is connected to the standpipe (24) via a universal joint (20) which consists of A double U-shaped part consists of two perpendicular and two in opposite directions Directional, horizontally extending side walls (26, 27, 28, 29) that the U-shaped retaining plate (19) on the vertical side walls (26, 27) of the universal joint is pivoted in the vertical direction and that the horizontal side walls (28, 29) of the universal joint on the standpipe (24) are attached so that it is both around the standpipe axis (22) as well as rotatable about an axis (23) running parallel thereto is. 5. Holder according to claim 4, characterized in that on the Standpipe (24) two clamps (37, 38) sets are with each a support part (39, 40) projecting perpendicularly from the standpipe, that on the two Supporting parts the horizontal side walls (28, 29) of the universal joint (20) rest, each side wall and each support part of one parallel to the standpipe axis (22) lying axis of rotation (23) realizing screw (41, 42) vertically penetrated is, and that on both sides of the two vertical screws (41, 42) through the running parallel to the standpipe base part (25) of the universal joint, of which the Side walls are bent at right angles, screws (43, 44, 45, 46) are guided, which press against the support parts (39, 40), which means more or less far Screwing these screws (43, 44, 45, 46) into the base part (25) a desired Rotational position of the universal joint (20) with respect to the parallel to the standpipe axis (22) lying axis of rotation (23) can be adjusted. 6. Holder according to claim 5, characterized in that the clamps (37, 38) are provided with prism-shaped recesses (48) so that standpipes in them (24) can be clamped with any diameter. 7. Holder according to claim 4, characterized in that at least a side wall (30, 31) of the holding part connected to the parabolic antenna (18) (19) and a vertical side wall (26, 27) of the universal joint (20) a screw spindle (35, 36) is attached, which enables a desired pivot position of the antenna with respect to the horizontal by the side walls (30, 31) of the holding part and the vertical side walls (26, 27) of the universal joint extending horizontal axis of rotation (21) to be set.